CN108391687B

CN108391687B - Vermicelli tangent plane device

Info

Publication number: CN108391687B
Application number: CN201810293141.5A
Authority: CN
Inventors: 谢同明
Original assignee: Zunyi City Tongzi County Yuqiang Agricultural Products Development Co ltd
Current assignee: Zunyi City Tongzi County Yuqiang Agricultural Products Development Co ltd
Priority date: 2018-03-30
Filing date: 2018-03-30
Publication date: 2020-05-08
Anticipated expiration: 2038-03-30
Also published as: CN108391687A

Abstract

The invention relates to the technical field of noodle cutting, and discloses a noodle cutting device, which comprises a rack, a noodle rolling roller and a cutting table, wherein the noodle rolling roller comprises a forward section, a conversion section and a reverse section which are sequentially communicated, the reverse section is sleeved with a reverse roller, the conversion section is provided with a coaxial reverse mechanism, and the forward section is connected with the reverse roller through the coaxial reverse mechanism; the cross section of cutting bed is isosceles triangle, and one side is rotated on the cutting bed and is connected with forward feed roller, and forward feed roller is located the below of forward section, and the opposite side of cutting bed is rotated and is connected with reverse feed roller, and reverse feed roller is located the below of reverse section, and the cutting bed both sides are connected with forward cutting portion and reverse cutting portion respectively, and forward cutting portion and reverse feed roller are located same one side of cutting bed, and reverse cutting portion and forward feed roller are located same one side of cutting bed. The device provided by the invention can simultaneously cut and form two types of noodles.

Description

Vermicelli tangent plane device

Technical Field

The invention relates to the technical field of noodle cutting, in particular to a noodle cutting device.

Background

The fine dried noodles are fine, hairy, white, smooth, tough, storage-resistant and boiling-resistant handmade noodles, and the main varieties comprise common fine dried noodles, pattern fine dried noodles, handmade fine dried noodles and the like. The fine dried noodles can be classified into egg fine dried noodles, tomato fine dried noodles, spinach fine dried noodles, carrot fine dried noodles, kelp fine dried noodles, lysine fine dried noodles, etc. The fine dried noodles are one of main wheaten foods which are popular among people all the time due to good taste, convenience in eating, low price and easiness in storage, and particularly for northern people, the fine dried noodles are kitchen foods which are necessary for families. The prior general treatment process of the dried noodles comprises the following steps: the raw and auxiliary materials are pretreated, then the flour, the salt, the machine returning dough and other auxiliary materials are added according to corresponding proportion quantitatively for kneading dough, the water content of the dough is ensured to be not lower than 31 percent, and the water adding temperature is properly controlled to be about 30 degrees. After dough kneading is finished, the dough is in the form of loose small particles, can be agglomerated by holding, can be loosened and restored by lightly kneading, and has layering effect on the cross section. At the moment, the well kneaded dough is cured, then the cured dough is rolled into a sheet shape, then one end of the dough sheet is placed on the dough rolling roller, the other end of the dough sheet is placed on the collecting roller, the collecting roller and the dough rolling roller synchronously rotate, the dough sheet on the dough rolling roller moves towards the direction of the knife part, the dough sheet is cut into strips through the knife part, and then the strips are transversely cut to complete the cutting part. And hanging the cut noodles with bamboo poles, drying the wet noodles, and finally finishing the metering and packaging work of the noodles by adopting a high-temperature quick drying method or a low-temperature slow drying method. Aiming at the links of cutting dough sheets, the existing noodle cutting machine can make the fabric into noodles at one time, and the quantity of the noodles can not be controlled according to the needs of people, so that great troubles are brought to the production and the use of people.

Therefore, Chinese bulletin No. CN105076284B discloses a noodle cutting machine, including rolling up a face wheel, a cutting knife, noodle is cut into device and roll up a face cloth department, roll up a face wheel core position and be equipped with the fixed axle, the fixed axle still connects on fixed parts, fixed axle one end is equipped with rolls up face wheel dismantlement department, roll up face wheel dismantlement department and establish in a roll up face wheel central point position, cutting knife fixed connection is on swift current face piece groove, cutting knife upper portion is equipped with the knob, swift current face piece groove lower extreme is equipped with the dough sheet export, be equipped with the winding wheel on the base, the base is in the same place with fixed parts fixed connection, fixed parts still is equipped with roll up. The invention has the advantages that the noodle cutting machine which can automatically generate noodles and control the length of the noodles is provided, the device can also automatically shrink the noodle materials which are not cut, and can effectively keep the humidity of the noodle materials without drying.

For the above solution, there are also the following problems: 1. at present, customers have more requirements on noodle types, such as: carrot noodles, spinach noodles and the like, the device can only process one type of noodles at a time, two types of noodles cannot be cut simultaneously, the function is single, and the working efficiency is low; 2. the existing noodles fall into a noodle sliding groove after being cut by a vertical cutting knife, the noodles need to be transversely cut at the outlet of the noodle sheet, the wet noodles are easy to bend and deform, the wet noodles are wavy under the acting force, after drying, the finally formed noodles are linear, the other noodles are wavy, and the fine dried noodle defective rate is high.

Disclosure of Invention

The invention aims to provide a noodle cutting device capable of cutting two kinds of noodles simultaneously.

In order to achieve the purpose, the invention adopts the following technical scheme: a dried noodle cutting device comprises a rack, a noodle rolling roller and a cutting mechanism, wherein one end of the noodle rolling roller is provided with a first baffle which is detachably connected, the other end of the noodle rolling roller penetrates through the rack and is rotatably connected with the rack, the end part of the noodle rolling roller penetrating through the rack is connected with a first motor, the noodle rolling roller comprises a forward section, a conversion section and a reverse section which are sequentially communicated, the first baffle is positioned at the free end of the forward section, the reverse section is sleeved with a reverse roller, the reverse roller is rotatably connected with the noodle rolling roller, one side of the reverse roller, far away from the forward section, is provided with a second baffle which is detachably connected, the conversion section is provided with a coaxial reverse mechanism, and the forward section is connected with the reverse roller through the coaxial reverse; cutting mechanism includes the cutting bed, the cross section of cutting bed is isosceles triangle, the top of cutting bed is located the roll face roller under, the direction of feed that is located forward section on the cutting bed rotates and is connected with forward feeding roller, forward feeding roller is located the below of forward section, the direction of feed that is located reverse section on the cutting bed rotates and is connected with reverse feeding roller, reverse feeding roller is located the below of reverse section, forward feeding roller and reverse feeding roller are located the both sides of cutting bed respectively, the cutting bed both sides are connected with forward cutting portion and reverse cutting portion respectively, forward cutting portion is located the same one side of cutting bed with reverse feeding roller, forward cutting portion is located the below of forward section, reverse cutting portion is located the same one side of cutting bed with forward feeding roller, reverse cutting portion is located the below of reverse section.

The principle of the scheme is as follows: during practical application, the free end of a first dough sheet wound on the forward feeding roller is lapped on the upper surface of the forward section of the dough rolling roller, the free end of a second dough sheet wound on the reverse feeding roller is lapped on the upper surface of the reverse roller, then the first motor is started, the dough rolling roller rotates forward under the action of the first motor, the first dough sheet moves around the surface of the forward section to the forward cutting part under the driving of the forward section of the dough rolling roller, and therefore the forward feeding roller also rotates forward around the rack. Along with the forward rotation of the dough rolling roller, the reverse roller sleeved on the dough rolling roller is driven to rotate reversely through the conversion of the coaxial reverse mechanism, so that the second dough sheet moves in the direction opposite to that of the first dough sheet under the drive of the reverse roller, namely, moves in the direction of the reverse cutting part. When the free end of the first dough sheet moves downwards to contact the cutting table, the first dough sheet enters the forward cutting part to be cut and formed, and finally comes out from the outlet of the forward cutting part. And the free end of the second dough sheet moves downwards to contact the other side of the cutting table, and the second dough sheet enters the reverse cutting part on the side surface to be cut and formed and finally comes out from the outlet of the reverse cutting part.

Has the advantages that:

1. the invention divides the prior dough rolling roller into three-section structures, namely a forward section, a conversion section and a reverse section, the forward section is used for placing a first dough sheet, the reverse roller connected with the reverse section is used for placing a second dough sheet, the reverse roller is sleeved on the reverse section of the dough rolling roller, and the forward section of the dough rolling roller is connected with the reverse roller through a coaxial reverse mechanism, so that the forward section and the reverse roller of the dough rolling roller can be driven by the same motor and rotate in two opposite directions, thereby meeting the requirements of customers, realizing that one device finishes the cutting and processing of two kinds of noodles, having more diversified functions, shortening the working time and greatly improving the working efficiency.

2. The forward section of book face roller is connected through coaxial reverse mechanism with reverse roller in the device, and the cross section of cutting bed is isosceles triangle, first kind dough sheet is through forward feeding roller like this, forward section and forward cutting portion form first kind of noodless, and second kind dough sheet is through reverse feeding roller, reverse roller and reverse cutting portion form second kind of noodless, final first kind of noodless and the different side of cutting bed, first kind of noodless and second kind of noodless can not mix together like this, the uniformity with one side noodless taste has been guaranteed.

Preferably, coaxial reverse mechanism includes forward gear and reverse gear, forward gear fixed connection is at the tip of forward section, reverse gear fixed connection is at the free end of reverse roller, the outer ring gear meshing of forward gear has first gear, one side that first gear is close to reverse section has the second gear through first fixed axle horizontally connect, the outer ring gear meshing of second gear has the third gear, one side that the third gear is close to reverse section has the fourth gear through second fixed axle horizontally connect, fourth gear and reverse gear intermeshing. When first motor drove the roll of dough roller and carries out forward rotation, the forward section of roll of dough roller is forward rotation, fixed connection is also forward rotation at the forward gear of forward section, thereby drive first gear antiport, at this moment, second gear antiport with first gear connection, third gear forward rotation with second gear engagement, fourth gear forward rotation with third gear connection, reverse gear antiport with fourth gear engagement, the rotation opposite direction of the second dough sheet that is located the forward section of roll of dough roller and is located the reverse roller like this. Set up two sets of gear trains in this structure, first gear and second gear form first gear train, and third gear and fourth gear form the second gear train, connect forward section and reverse roller through two sets of gear trains, and structural design is tight short, and coaxial reverse motion is steady.

Preferably, the forward cutting part and the reverse cutting part respectively comprise an upper plate, a lower plate, two side plates and a plurality of partition plates, the bottom surface of the lower plate is detachably connected with the side surface of the cutting table, the upper plate is positioned right above the lower plate and is parallel to the lower plate, two sides of the upper plate and two sides of the lower plate are fixedly connected through the side plates, and the upper plate, the lower plate and the side plates form a cutting space; the cutting space is divided into a plurality of cutting channels through a plurality of clapboards, the clapboards are parallel to each other with the curb plate, the end connection that the clapboard is close to the roll-up roller has a cutting knife, the edge of a knife of cutting knife outwards and with the clapboard coaxial line. The edge of a knife of the cutting knife that this structure set up is mutually perpendicular with the free end of dough sheet, carries out vertical cutting with the dough sheet, and the noodless that form after the cutting pass through the cutting passageway, finally come out from the exit of cutting passageway, through the setting of this structure, can guarantee that every noodless are mutually independent, can not glue together.

Preferably, the side plates and the bottom plate are provided with knife inlets, the knife inlets are L-shaped, knife inlets are arranged in the cutting space in the direction of the knife inlets, the knife inlets are perpendicular to the cutting channel, the cutting channel is divided into an upper channel and a lower channel through the knife inlets, the part of the lower plate, which is positioned on the upper channel, is in the shape of an arc which is sunken downwards, and the part of the lower plate, which is positioned on the lower channel, is in a plane; the cutting table is a cavity, a cam is arranged at the bottom of the cutting table and is rotationally connected with the inner wall of the cutting table through a rotating shaft, the cam is fixedly connected with the rotating shaft, the end part of the rotating shaft, which penetrates out of the inner wall of the cutting table, is connected with a second motor, a push block and a connecting rod fixedly connected with the bottom of the push block are arranged in the cutting table, a sleeve is arranged between the connecting rod and the cam and is connected to the inner wall of the cutting table, the free end of the connecting rod penetrates through the sleeve to abut against the upper surface; the two sides of the push block are obliquely and upwards hinged with push rods, the free ends of the push rods are hinged with long rods, the free ends of the long rods are hinged with feed knives, and when the push block is positioned at the lowest end, the knife edges of the feed knives are positioned in the feed knives; when the push block is positioned at the highest end, the knife edge of the feed is propped against the inner side of the upper plate. The second motor drives the cam to rotate around the cutting table, at the moment, the roller on the free end of the connecting rod moves on the cam surface, when the roller moves to the protruding portion of the cam, the connecting rod moves upwards along the sleeve, and the pushing block at the end of the connecting rod moves upwards. At this moment, the push rod moves upwards around the hinged position of the push block and the push rod, the long rod hinged with the push rod continues to extend, the knife edge of the feed knife is pushed to enter the knife feeding gap, the noodles which are cut vertically are cut transversely, the noodles positioned in the upper channel are buffered upwards for a small distance along the arc of the lower plate of the upper channel under the action force of the feed knife, and the noodles are deformed into an arc. Then, the second motor drives the cam to rotate continuously, the roller on the cam surface leaves the convex part, so that the connecting rod pulls the push block to move downwards, and the cutter is pushed back to the cutter feeding opening under the action of the push rod. The noodle strings located at the upper passage move toward the lower passage, and the portion of the lower plate located at the lower passage is flat, so that the curved noodle strings are restored to a straight state and finally come out of the cutting passage. The structure is provided with a cutter feeding seam which is vertical to the cutting channel, and the push rod pushes the cutter to enter the cutter feeding seam back and forth so as to transversely cut the noodle; divide into two kinds of shapes with the hypoplastron, the part that the hypoplastron is located the upper channel is sunken arc, the part that the hypoplastron is located the lower channel is the plane, when noodless received the power of feed like this, the noodless that the hypoplastron is located the part of upper channel can an rebound short distance, and make noodless be the arc temporarily, can play the effect of buffering and temporary design to the noodless, and noodless reach the lower channel part of hypoplastron, the sunken arc of noodless is under the effect of hypoplastron, resume into rectilinear state, make noodless cut to be rectilinear state after accomplishing like this, the yield is higher.

Preferably, an elastic pad is arranged on one side of the feed opening, which is positioned in the feed channel, the elastic pad is connected with the inner side of the lower plate, and a through seam corresponding to the feed opening is arranged on the elastic pad. Through set up the cushion in feed mouth department, after the feed carries out transverse cutting to noodless, the feed surface can glue the face sediment, and at this moment, the feed is when the feed mouth is returned to the cutting bed inboard, and the face sediment is under the effect of cushion, with feed surface separation, and the face sediment has been stayed to lead to the seam and is close to around cutting passageway tip, has avoided the feed to take into the face sediment in giving the cutting bed, and is inconvenient to clean.

Preferably, the two ends of the forward feeding roller and the reverse feeding roller are vertically and fixedly connected with the stop plates, so that the face sheets can be limited.

Preferably, be connected with the pressure face roller between the barrier plate, the pressure face roller can be dismantled with the inner wall of barrier plate and be connected, and forms the gap that is used for the dough sheet to pass through between the upper surface of pressure face roller and forward feed roller and reverse feed roller respectively. Therefore, the dough sheets on the forward feeding roller and the reverse feeding roller can be positioned, and the dough sheets are prevented from being separated from the surfaces of the dough sheets; simultaneously, can extrude the dough sheet once more, eliminate the bubble inside the dough sheet, guarantee that the thickness of dough sheet is unanimous, and the surface is more level and more smooth to guarantee that the noodless quality of cutting out is higher.

Drawings

FIG. 1 is a schematic diagram of an embodiment of a noodle cutting device according to the present invention;

FIG. 2 is a schematic view of the construction of the face-rolling roll of FIG. 1;

FIG. 3 is a schematic view of the forward cutting section and the reverse cutting section of FIG. 1;

FIG. 4 is a cross-sectional view of the forward and reverse cuts of FIG. 1;

FIG. 5 is a schematic view of the construction of the forward feed roll and the reverse feed roll of FIG. 1;

fig. 6 is a partially enlarged view of a portion a in fig. 1.

Detailed Description

The present invention will be described in further detail below by way of specific embodiments:

reference numerals in the drawings of the specification include: the dough rolling device comprises a dough rolling roller 1, a first baffle plate 2, a first motor 3, a reverse roller 4, a second baffle plate 5, a forward gear 6, a reverse gear 7, a first gear 8, a first fixed shaft 9, a second gear 10, a third gear 11, a fourth gear 12, a second fixed shaft 13, a cutting table 14, a forward feeding roller 15, a reverse feeding roller 16, a blocking plate 17, a dough pressing roller 18, a reverse cutting part 19, a forward cutting part 20, an upper plate 21, a lower plate 22, a side plate 23, a partition plate 24, a cutting knife 25, a cutting knife slot 26, an upper channel 27, a lower channel 28, a cam 29, a pushing block 30, a connecting rod 31, a sleeve 32, a pushing rod 33, a long rod 34 and a cutting knife 35.

Examples are shown in fig. 1 and 2: the utility model provides a vermicelli tangent plane device, includes frame and book face roller 1, and 1 one end threaded connection of book face roller has first baffle 2, and the other end of book face roller 1 passes the frame and rotates with the frame to be connected, and the tip bolted connection that book face roller 1 passed the frame has first motor 3. Wherein, book face roller 1 is equipped with reverse roller 4 including the forward section, conversion section and the reverse section that communicate in proper order from a left side to the right side, and first baffle 2 is located the left side tip of forward section, and the cover is equipped with reverse roller 4 on the reverse section, and reverse roller 4 rotates with book face roller 1 to be connected, and reverse roller 4 right side tip threaded connection has second baffle 5. Be equipped with coaxial reverse mechanism on the conversion section, coaxial reverse mechanism includes forward gear 6 and reverse gear 7, forward gear 6 welds the right side tip at the forward section, reverse gear 7 welds the left side tip at reverse roller 4, the outer ring gear meshing of forward gear 6 has first gear 8, one side that first gear 8 is close to the reverse section has second gear 10 through first fixed axle 9 horizontally connect, the outer ring gear meshing of second gear 10 has third gear 11, one side that third gear 11 is close to the reverse section has fourth gear 12 through second fixed axle 13 horizontally connect, fourth gear 12 and reverse gear 7 intermeshing.

As shown in fig. 1 and 5, a cutting table 14 is installed under the dough rolling roller 1, the cutting table 14 is bolted on the machine frame, the cross section of the cutting table 14 is an isosceles triangle, a feeding direction on the forward section on the cutting table 14 is rotationally connected with a forward feeding roller 15, the forward feeding roller 15 is located under the forward section, a feeding direction on the reverse section on the cutting table 14 is rotationally connected with a reverse feeding roller 16, the reverse feeding roller 16 is located under the reverse section, and the forward feeding roller 15 and the reverse feeding roller 16 are respectively located on two sides of the cutting table 14. The forward feeding roller 15 and the reverse feeding roller 16 are vertically and fixedly connected with blocking plates 17 at two end parts, a flour pressing roller 18 is connected between the blocking plates 17 through a pin shaft, and gaps are formed between the flour pressing roller 18 and the upper surfaces of the forward feeding roller 15 and the reverse feeding roller 16 respectively. The cutting table 14 is connected with a reverse cutting part 19 on the inclined plane of one side close to the forward feeding roller 15, the reverse cutting part 19 is positioned below the reverse section, the cutting table 14 is connected with a forward cutting part 20 on the inclined plane of one side close to the reverse feeding roller 16, and the forward cutting part 20 is positioned below the forward section.

As shown in fig. 3 and 4, each of the forward cutting portion 20 and the reverse cutting portion 19 includes an upper plate 21, a lower plate 22, two side plates 23, and a plurality of partition plates 24, the bottom surface of the lower plate 22 is connected to the side surface of the cutting table 14 by bolts, the upper plate 21 is located right above the lower plate 22 and is parallel to each other, the two sides of the upper plate 21 and the lower plate 22 are welded by the side plates 23, the upper plate 21, the lower plate 22, and the side plates 23 form a cutting space, the upper end and the lower end of the cutting space are in an open state, the upper end of the cutting space is a feed inlet, and the lower end of. The cutting space is divided into a plurality of cutting channels through a plurality of partition plates 24, the cutting channels are parallel to the side plates 23, the partition plates 24 are positioned at the feed inlet of the cutting space and are connected with cutting knives 25 through bolts, and the knife edges of the cutting knives 25 are outward and coaxial with the partition plates 24. The side plates 23 and the bottom plate are provided with knife inlets which are L-shaped, knife inlets 26 are arranged in the cutting space in the knife inlet direction, the knife inlets 26 are perpendicular to the cutting channel, the cutting channel is divided into an upper channel 27 and a lower channel 28 through the knife inlets 26, the part of the lower plate 22, which is positioned in the upper channel 27, is in a downward-concave arc shape, and the part of the lower plate 22, which is positioned in the lower channel 28, is in a plane.

As shown in fig. 1 and 6, the cutting table 14 is a cavity, the bottom of the cutting table 14 is provided with a cam 29, the cam 29 is located on the intersecting line of the forward cutting part 20 and the reverse cutting part 19, the cam 29 is rotatably connected with the inner wall of the cutting table 14 through a rotating shaft, the cam 29 is bolted with the rotating shaft, and the end of the rotating shaft penetrating through the inner wall of the cutting table 14 is connected with a second motor. A pushing block 30 is arranged in the cutting table 14, a connecting rod 31 is welded below the pushing block 30, a sleeve 32 is arranged between the connecting rod 31 and the cam 29, the sleeve 32 is connected to the inner wall of the cutting table 14 through a bolt, the lower end of the connecting rod 31 penetrates through the sleeve 32 to be abutted to the upper surface of the cam 29, and a roller is connected to the lower end of the connecting rod 31 through a pin shaft. Two sides of the push block 30 are obliquely and upwards hinged with push rods 33, the free end of each push rod 33 is hinged with a long rod 34, the free end of each long rod 34 is hinged with a cutter 35, and when the push block 30 is positioned at the lowest end, the cutter edge of each cutter 35 is positioned in the corresponding cutter inlet; when the push block 30 is located at the highest end, the edge of the knife 35 abuts against the inner side of the upper plate 21. The elastic pad is connected with the inner side of the lower plate 22, the elastic pad is made of rubber materials and is provided with a through seam corresponding to the feed opening, and the width of the through seam only allows the feed 35 to move back and forth.

During practical application, the free end of the first dough sheet wound on the forward feeding roller 15 is lapped on the upper surface of the forward section of the dough rolling roller 1, the free end of the second dough sheet wound on the reverse feeding roller 16 is lapped on the upper surface of the reverse roller 4, then the first motor 3 is started, the dough rolling roller 1 rotates forward under the action of the first motor 3, the first dough sheet moves around the surface of the forward section to the forward cutting part 20 under the driving of the forward section of the dough rolling roller 1, so that the forward feeding roller 15 also rotates forward around the rack, the forward gear 6 fixedly connected to the forward section also rotates forward, and the first gear 8 is driven to rotate reversely. At this time, the second gear 10 connected to the first gear 8 rotates in the reverse direction, the third gear 11 meshing with the second gear 10 rotates in the forward direction, the fourth gear 12 connected to the third gear 11 rotates in the forward direction, and the reverse gear 7 meshing with the fourth gear 12 rotates in the reverse direction. The second dough sheet will thus be moved by the reversing roller 4 in the opposite direction to the first dough sheet, i.e. in the direction of the reverse cutting section 19. When the free end of the first dough sheet moves downwards to contact the cutting table 14, the first dough sheet enters the forward cutting part 20 for cutting and forming, the free end of the first dough sheet is vertically cut by the cutting knife 25, and the cut first dough sheet enters an independent cutting channel. And the free end of the second dough sheet moves downwards to contact the other side of the cutting table 14, the second dough sheet enters the reverse cutting part 19 on the side surface for cutting and forming, the free end of the second dough sheet is vertically cut by the cutting knife 25, and the cut second dough sheet enters an independent cutting channel.

At this time, the second motor drives the cam 29 to rotate around the cutting table 14, the roller on the free end of the connecting rod 31 moves on the surface of the cam 29, when the roller moves to the convex part of the cam 29, the connecting rod 31 will move upwards along the sleeve 32, and the pushing block 30 at the end of the connecting rod 31 moves upwards. At this time, the push rod 33 moves upward around the hinge of the push block 30 with the push rod 33 and the long rod 34, and pushes the end of the feed 35 through the feed opening into the feed slit 26, the first and second noodles cut vertically are cut horizontally at the same time, the first and second noodles located in the upper passage 27 are buffered a small distance upward along the arc of the lower plate 22 of the upper passage 27 by the force of the feed 35, and the first and second noodles are deformed into an arc shape. Then, the cam 29 is further rotated by the second motor, and the roller on the surface of the cam 29 is separated from the convex portion, so that the link 31 pulls the push block 30 downward, and at this time, the feed 35 is pushed back to the feed opening by the force of the push rod 33 and the long rod 34. The first and second noodles in the upper passage 27 are moved toward the lower passage 28, and the portion of the lower plate 22 in the lower passage 28 is flat, so that the curved first and second noodles are restored to a straight state and finally come out from the cutting passage.

The foregoing is merely an example of the present invention and common general knowledge in the art of designing and/or characterizing particular aspects and/or features is not described in any greater detail herein. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. A dried noodle cutting device comprises a rack, a noodle rolling roller and a cutting mechanism, wherein one end of the noodle rolling roller is provided with a first baffle which is detachably connected, the other end of the noodle rolling roller penetrates through the rack and is rotatably connected with the rack, and the end part of the noodle rolling roller penetrating through the rack is connected with a first motor; the cutting mechanism comprises a cutting table, the cross section of the cutting table is in an isosceles triangle shape, the top end of the cutting table is located under a dough rolling roller, a forward feeding roller is rotatably connected to the feeding direction of a forward section on the cutting table, the forward feeding roller is located under the forward section, a reverse feeding roller is rotatably connected to the feeding direction of a reverse section on the cutting table, the reverse feeding roller is located under a reverse section, the forward feeding roller and the reverse feeding roller are respectively located on two sides of the cutting table, a forward cutting portion and a reverse cutting portion are respectively connected to two sides of the cutting table, the forward cutting portion and the reverse feeding roller are located on the same side of the cutting table, the forward cutting portion is located under the forward section, the reverse cutting portion and the forward feeding roller are located on the cutting table of the cutting table, and the reverse cutting portion is located under the reverse section; coaxial reversing mechanism includes forward gear and reverse gear, forward gear fixed connection is at the tip of forward section, reverse gear fixed connection is at the free end of reverse roller, the outer ring gear meshing of forward gear has first gear, one side that first gear is close to reverse section has the second gear through first fixed axle horizontally connect, the outer ring gear meshing of second gear has the third gear, one side that the third gear is close to reverse section has the fourth gear through second fixed axle horizontally connect, fourth gear and reverse gear intermeshing.

2. A noodle cutting device as claimed in claim 1, wherein: the cutting table comprises a cutting table, a forward cutting part, a backward cutting part and a cutting table body, wherein the forward cutting part and the backward cutting part respectively comprise an upper plate, a lower plate, two side plates and a plurality of partition plates, the bottom surface of the lower plate is detachably connected with the side surface of the cutting table, the upper plate is positioned right above the lower plate and is parallel to the lower plate, the two sides of the upper plate and the lower plate are fixedly connected through the side plates, and the upper plate, the lower plate and the side; the cutting space is divided into a plurality of cutting channels through a plurality of partition plates, the partition plates are parallel to the side plates, the end parts, close to the dough rolling roller, of the partition plates are connected with cutting knives, and knife edges of the cutting knives are outward and coaxial with the partition plates.

3. A noodle cutting device as claimed in claim 2, wherein: the side plates and the bottom plate are provided with knife inlets, the knife inlets are L-shaped, knife inlets are arranged in the cutting space in the direction of the knife inlets, the knife inlets are perpendicular to the cutting channel, the cutting channel is divided into an upper channel and a lower channel through the knife inlets, the part of the lower plate, which is positioned on the upper channel, is in the shape of an arc which is sunken downwards, and the part of the lower plate, which is positioned on the lower channel, is in a plane; the cutting table is a cavity, a cam is arranged at the bottom of the cutting table and is rotationally connected with the inner wall of the cutting table through a rotating shaft, the cam is fixedly connected with the rotating shaft, the end part of the rotating shaft, which penetrates out of the inner wall of the cutting table, is connected with a second motor, a push block and a connecting rod fixedly connected with the bottom of the push block are arranged in the cutting table, a sleeve is arranged between the connecting rod and the cam and is connected with the inner wall of the cutting table, the free end of the connecting rod penetrates through the sleeve to abut against the upper surface of the cam, and the free end; the two sides of the push block are obliquely and upwards hinged with push rods, the free ends of the push rods are hinged with long rods, the free ends of the long rods are hinged with feed knives, and when the push block is positioned at the lowest end, the knife edges of the feed knives are positioned in the feed knives; when the push block is positioned at the highest end, the knife edge of the feed is propped against the inner side of the upper plate.

4. A noodle cutting device as claimed in claim 3, wherein: an elastic pad is arranged on one side of the feed opening, which is positioned in the feed channel, and is connected with the inner side of the lower plate, and a through seam corresponding to the feed opening is arranged on the elastic pad.

5. A noodle cutting device as claimed in any one of claims 1 to 4, wherein: and the two ends of the forward feeding roller and the reverse feeding roller are vertically and fixedly connected with blocking plates.

6. A noodle cutting device as claimed in claim 5, wherein: be connected with the dough pressing roller between the barrier plate, the dough pressing roller can be dismantled with the inner wall of barrier plate and be connected, and forms the gap that is used for the dough sheet to pass through between the upper surface of dough pressing roller and forward feed roller and reverse feed roller respectively.